Chemistry Chemistry: The Science in Context
Chemistry: The Science in Context

Chemistry: The Science in Context Gilbert • 5th Edition • 978-0393614046

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Ch.1 - Particles of Matter: Measurement and the Tools of Science

Mixtures Scientific Notation Accuracy & Precision Standard Deviation, Mean, Median & Mode Metric Prefixes Significant Figures Energy, Heat and Temperature Physical & Chemical Changes Dimensional Analysis Density End of Chapter 1 Problems

Ch.2 - Atoms, Ions and Molecules: Matter Starts Here

Periodic Table Mole Concept Isotopes Subatomic Particles Atomic Theory Thomson's Cathode Ray Tube Experiment Oil Drop Experiment Gold Foil Experiment The Chadwick Neutron Experiment Polyatomic Ions Naming Covalent Compounds Naming Ionic Compounds Naming Acids End of Chapter 2 Problems

Ch.3 - Stoichiometry: Mass, Formulas and Reactions

Empirical Formula Combustion Analysis Mass Spectrometry Mass Percent Formula Balancing Chemical Equations Functional Groups in Chemistry Stoichiometry End of Chapter 2 Problems

BONUS: Lab Techniques and Procedures

Laboratory Materials Experimental Error Distillation & Floatation Chromatography Filtration and Evaporation Extraction Test for Ions and Gases

BONUS: Mathematical Operations and Functions

Multiplication and Division Operations Addition and Subtraction Operations Power and Root Functions Logarithmic and Natural Logarithmic Functions The Quadratic Formula

Ch.4 - Reactions in Solution: Aqueous Chemistry in Nature

Molarity Normality & Equivalent Weight Solution Stoichiometry Solubility Rules Net Ionic Equations Electrolytes Redox Reaction Balancing Redox Reactions Activity Series End of Chapter 4 Problems

Ch.5 - Thermochemistry: Energy Changes in Reactions

Internal Energy Calorimetry Hess's Law Enthalpy of Formation End of Chapter 6 Problems

Ch.6 - Properties of Gases: The Air We Breathe

Pressure Units Manometer Partial Pressure The Ideal Gas Law Standard Temperature and Pressure Effusion Root Mean Square Speed Kinetic Molecular Theory Van der Waals Equation Velocity Distribution End of Chapter 5 Problems

Ch.7 - A Quantum Model of Atoms

Wavelength and Frequency Diffraction vs Refraction The Particle Nature of Light Photoelectric Effect De Broglie Wavelength Heisenberg Uncertainty Principle Bohr Model Introduction to Quantum Mechanics Electron Configuration Paramagnetic and Diamagnetic Effective Nuclear Charge The Spin Quantum Number Orbital Shapes Atomic Radius Periodic Trends: Atomic Radius Periodic Trends: Ionic Radius Periodic Trends: Ionization Energy Periodic Trends: Electron Affinity End of Chapter 7 Problems

Ch.8 - Chemical Bonds

Chemical Bonds Lattice Energy Lattice Energy Application Born Haber Cycle Dipole Moment Lewis Dot Structure Octet Rule Formal Charge Resonance Structures

Ch.9 - Molecular Geometry: Shape Determines Function

Molecular vs Electron Geometry Bond Angles Hybridization Molecular Orbital Theory Heteronuclear Diatomic Molecules

Ch.10 - Intermolecular Forces: The Uniqueness of Water

Molecular Polarity Intermolecular Forces Phase Diagram Heating and Cooling Curves Clausius-Clapeyron Equation

Ch.11 - Solutions: Properties and Behavior

Solutions, Molarity and Intermolecular Forces Calculate Molarity Mass Percent Molality Mole Fraction Henry's Law The Colligative Properties

Ch.12 - Solids: Structures and Applications

Metal Alloys Unit Cell

Ch.13 - Chemical Kinetics

Rate of Reaction Average Rate of Reaction Arrhenius Equation Rate Law Integrated Rate Law Collision Theory

Ch.14 - Chemical Equilibrium

Chemical Equilibrium ICE Chart Le Chatelier's Principle The Reaction Quotient

Ch.15 - Acid-Base Equilibria

Identifying Acids and Bases Arrhenius Acid and Base Bronsted Lowry Acid and Base Amphoteric Lewis Acid and Base pH and pOH Ka and Kb Ionic Salts Diprotic Acid Polyprotic Acid

Ch.16 - Additional Aqueous Equilibria

Buffer Acid and Base Titration Curves Weak Acid Strong Base Titrations Weak Base Strong Acid Titrations Strong Acid Strong Base Titrations Titrations of Diprotic and Polyprotic Acids Ksp

Ch.17 - Thermodynamics: Spontaneous and Nonspontaneous Reactions and Processes

Spontaneous Reaction First Law of Thermodynamics Entropy Gibbs Free Energy

Ch.18 - Electrochemistry

Redox Reaction Balancing Redox Reaction The Nernst Equation Faraday's Constant Galvanic Cell Batteries and Electricity

Ch.19 - Nuclear Chemistry

Radioactive Decay Band of Stability Magic Numbers First Order Half Life

Ch.20 - Organic and Biological Molecules: The Compounds of Life

Introduction to Organic Chemistry Structural Formula Chirality Optical Isomers Hydrocarbon The Alkyl Group Naming Alkanes Naming Alkenes Naming Alkynes Alkane Reactions Alkenes and Alkynes Benzene Reactions Functional Groups Alcohol Reactions Carboxylic Acid Derivative Reactions

Ch.21 - The Main Group Elements: Life and the Periodic Table

Hydrogen Atom Alkali Metals Alkaline Earth Metals Alkaline Earth Metals Reactions Periodic Trends and Diagonal Relationships Boron Family Carbon Family Nitrogen Family Oxygen Family Halogens

Ch.22 - Transition Metals: Biological and Medical Applications

Transition Metals Transition Metals Properties Coordination Complexes Naming Coordination Compounds Coordination Isomers

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